Comparative risk assessment of the burden of disease from climate change.The World Health Organization has developed standardized standardized pertaining to data that have been submitted to standardization procedures. standardized morbidity rate see morbidity rate. standardized mortality rate see mortality rate. comparative risk assessment methods for estimating aggregate disease burdens attributable to different risk factors. These have been applied to existing and new models for a range of climate-sensitive diseases in order to estimate the effect of global climate change on current disease burdens and likely proportional changes in the future. The comparative risk assessment approach has been used to assess the health consequences of climate change worldwide, to inform decisions on mitigating greenhouse gas greenhouse gas n. Any of the atmospheric gases that contribute to the greenhouse effect. greenhouse gas emissions, and in a regional assessment of the Oceania region in the Pacific Ocean to provide more location-specific information relevant to local mitigation and adaptation decisions. The approach places climate change within the same criteria for epidemiologic assessment as other health risks and accounts for the size of the burden of climate-sensitive diseases rather than just proportional change, which highlights the importance of small proportional changes in diseases such as diarrhea and malnutrition malnutrition, insufficiency of one or more nutritional elements necessary for health and well-being. Primary malnutrition is caused by the lack of essential foodstuffs—usually vitamins, minerals, or proteins—in the diet. that cause a large burden. These exercises help clarify important knowledge gaps such as a relatively poor understanding of the role of nonclimatic factors (socioeconomic so·ci·o·ec·o·nom·ic adj. Of or involving both social and economic factors. socioeconomic Adjective of or involving economic and social factors Adj. 1. and other) that may modify future climatic influences and a lack of empiric evidence and methods for quantifying more complex climate-health relationships, which consequently are often excluded from consideration. These exercises highlight the need for risk assessment frameworks that make the best use of traditional epidemiologic methods and that also fully consider the specific characteristics of climate change. These include the long-term and uncertain nature of the exposure and the effects on multiple physical and biotic biotic /bi·ot·ic/ (bi-ot´ik) 1. pertaining to life or living matter. 2. pertaining to the biota. bi·ot·ic adj. 1. Relating to life or living organisms. systems that have the potential for diverse and widespread effects, including high-impact events. Key words: burden of disease, climate change, national, quantitative comparative risk assessment, regional. Environ Health Perspect 114:1935-1941 (2006). doi:10.1289/ehp.8432 available via http://dx.doi.org/ [Online 11 July 2006] ********** The process of climate change, including both increases in global average temperatures ("global warming global warming, the gradual increase of the temperature of the earth's lower atmosphere as a result of the increase in greenhouse gases since the Industrial Revolution. ") and changes in other climate characteristics such as the spatial and temporal distribution of precipitation precipitation, in chemistry precipitation, in chemistry, a process in which a solid is separated from a suspension, sol, or solution. In a suspension such as sand in water the solid spontaneously precipitates (settles out) on standing. , has important implications for human health. It is important to describe, measure, and predict the health effects of climate change for two reasons. First, this provides a fuller picture of the consequences of mitigating, or failing to mitigate, emissions of greenhouse gases that are the main anthropogenic an·thro·po·gen·ic adj. 1. Of or relating to anthropogenesis. 2. Caused by humans: anthropogenic degradation of the environment. contribution to climate change. The long persistence of these gases in the atmosphere means that current mitigation activities (or lack of them) will have consequences for all natural and human systems over coming decades and centuries. They should ideally be informed by measures of the overall size and global distribution of likely health effects of climate change throughout suitably long periods to be considered alongside other impacts such as on biodiversity biodiversity: see biological diversity. biodiversity Quantity of plant and animal species found in a given environment. Sometimes habitat diversity (the variety of places where organisms live) and genetic diversity (the variety of traits expressed (Parmesan and Yohe 2003; Thomas et al. 2004a). Even imperfect imperfect: see tense. estimates of the full range of global impacts can provide useful information, provided they are accompanied by clear descriptions of the associated assumptions and uncertainties. Second, quantitative studies can help inform policies to adapt to climate changes that are now inevitable because of both natural variability and past greenhouse gas emissions. Such actions typically affect the national or subnational level and require information on the likelihood and expected magnitude of specific health impacts in the local context, allowing for the more appropriate allocation of resources allocation of resources Apportionment of productive assets among different uses. The issue of resource allocation arises as societies seek to balance limited resources (capital, labour, land) against the various and often unlimited wants of their members. to prevent harm from effects such as extreme weather-related events and changes in disease distributions. Recent comparisons of natural and anthropogenic influences on regional climate (Stott et al. 2004) have demonstrated that human activity increased the probability of a specific past climate event, with severe health consequences (> 44,000 deaths in the European heat wave of summer 2003) (Kosatsky 2005). However, estimating the full range of effects of climate change on health over long time scales presents additional challenges to epidemiologic methods. These include the absence of an appropriate comparison group, the long period over which human actions affect the climate, the large number of health outcomes potentially affected by climatic change Climatic Change is a journal published by Springer.[1] Climatic Change is dedicated to the totality of the problem of climatic variability and change - its descriptions, causes, implications and interactions among these. , and the numerous nonclimatic influences on each of these outcomes. For these reasons it is misleading simply to observe long-term trends in climate-related diseases and to attribute these changes directly to anthropogenic climate change (e.g., Kovats et al. 2001; McMichael and Githeko 2001; Reiter 2001). The most plausible estimates of future climate change impacts are instead based on empirically observed relationships between weather or climate conditions and health effects, either in space and/or in time, or, for infectious diseases infectious diseases: see communicable diseases. , on models that capture a detailed understanding of the effects of climate on the biologic processes that determine disease transmission (Rogers and Randolph 2000; Small et al. 2003). Projections of global climate models can be linked to these relationships to indicate how future climate change may influence the level of health outcomes--such as changes in the population living in areas with climates suitable for the transmission of malaria malaria, infectious parasitic disease that can be either acute or chronic and is frequently recurrent. Malaria is common in Africa, Central and South America, the Mediterranean countries, Asia, and many of the Pacific islands. parasites or dengue virus dengue virus n. A virus of the genus Flavivirus that is the cause of dengue. (e.g., Hales et al. 2002; Martens 1998; Rogers and Randolph 2000) or the numbers of people exposed to coastal flooding (Nicholls et al. 1999). These models already provide useful quantitative measures of future risk. However, the results of these models are difficult to relate directly to inform decisions on mitigation (e.g., greenhouse gas emission reduction strategies) because a) many do not attempt to account for changes in nonclimatic influences such as economic development (and hence the ability to protect against disease risk), and b) the model outcomes are often indirectly related to health, and then only to specific diseases. It is therefore difficult to judge the overall magnitude of the likely health impacts of climate change, either globally or in a specific country (e.g., the combined health effect of a projected 10% increase of the population exposed to coastal flooding, a 20% increase in population living in areas suitable for dengue dengue or breakbone fever or dandy fever Infectious, disabling mosquito-borne fever. Other symptoms include extreme joint pain and stiffness, intense pain behind the eyes, a return of fever after brief pause, and a characteristic rash. transmission, and a 5% drop in deaths in cold extremes) and compare these with other threats. These concerns can be addressed partly by using a standard framework for comparison across risk factors and diseases. The World Health Organization (WHO) has recently developed an approach for comparative risk assessment that has been applied to estimate the current and future disease burden from 25 diverse risk factors, including climate change, in a comparable and transparent manner (Ezzati et al. 2002, 2004; Murray and Lopez 1997; WHO 2002). The assessment generated estimates of the numbers of deaths and disability-adjusted life years Disability-adjusted life years (DALY) is a measure for the overall "burden of disease." Originally developed by the World Health Organization, it is becoming increasingly common in the field of public health and health impact assessment (HIA). (DALYs) attributable to each risk factor in the year 2000, along with expected changes in exposures and associated relative risks of disease outcomes, for several time points between 2000 and 2030. A similar approach has been applied to estimate the effects of climate change on health within the Oceania region in the Pacific Ocean for 2020 and 2050. This assessment principally focused on the impacts on Australian populations, although quantitative estimates were generated for a subset of the health outcomes for New Zealand New Zealand (zē`lənd), island country (2005 est. pop. 4,035,000), 104,454 sq mi (270,534 sq km), in the S Pacific Ocean, over 1,000 mi (1,600 km) SE of Australia. The capital is Wellington; the largest city and leading port is Auckland. and Pacific Island countries. This article outlines the comparative risk assessment approach and discusses its main advantages and limitations for its use in assessments of the health impacts of climate change at the national level. The comparative risk assessment method involves four stages: a) identifying health outcomes sensitive to climatic influences, b) quantifying the dose--response relationship for a baseline climate period, c) defining future exposure scenarios, and d) estimating the burden of disease that is attributable to a risk factor (i.e., relative to the risk if climate were unaffected by human actions) and the burden that is avoidable by plausible reductions in the risk factor. Each of these steps requires more detailed decisions, for example, selection between various possible scenarios for future greenhouse gas emissions and associated climate change, or between alternative models describing the relationships between climate and individual health outcomes. These are described only briefly here; more detail on the specific methods used in both the global and the regional assessment are reported by McMichael et al. (2003b, 2004). Identifying Climate-Sensitive Health Outcomes Time-series studies and geographic comparisons provide good evidence that a range of health impacts are sensitive to variations in meteorologic me·te·or·ol·o·gy n. The science that deals with the phenomena of the atmosphere, especially weather and weather conditions. [French météorologie, from Greek conditions of a scale comparable to the climate changes that are expected over the coming century or so (i.e., a 1.4-5.8[degrees]C increase in global mean temperatures, changes in regional patterns of rainfall, and potential increases in the frequency of severe storms [Intergovernmental Panel on Climate Change “IPCC” redirects here. For other uses, see IPCC (disambiguation). The Intergovernmental Panel on Climate Change (IPCC) was established in 1988 by two United Nations organizations, the World Meteorological Organization (WMO) and the United Nations Environment (IPCC See IMS Forum. ) 2001a; Knutson and Tuleya 2004]. These impacts include deaths and morbidity associated with weather extremes such as heat waves, cold waves, and floods, the incidence of all infectious diseases transmitted by insects and other invertebrate invertebrate (ĭn'vûr`təbrət, –brāt'), any animal lacking a backbone. The invertebrates include the tunicates and lancelets of phylum Chordata, as well as all animal phyla other than Chordata. vectors or caused by pathogens that replicate in food or water, and the effects of malnutrition, particularly in poor populations that rely on subsistence farming subsistence farming Form of farming in which nearly all the crops or livestock raised are used to maintain the farmer and his family, leaving little surplus for sale or trade. Preindustrial agricultural peoples throughout the world practiced subsistence farming. (McMichael et al. 2003a). These therefore provide an initial list of climate-sensitive health outcomes that should be considered in comparative risk assessment exercise. It should be noted that taking this disease-by-disease approach already tends toward conservative estimates of the full range of health effects. Climate can influence an even wider range of diseases through multiple pathways (e.g., Gommes et al. 2004), and climate is such a major influence on all ecosystem functions that climate change, and particularly sudden "threshold" shifts, may lead to the emergence of new disease threats that are not currently foreseeable. Quantitative Estimation of Climate-Health Relationships Comparative risk assessment requires quantitative models of the climatic effects for health outcomes (relevant to the study population) or sufficient reliable disease and environmental data to allow their construction. These models are usually generated based on measurements of the health effects of observed variations in climate in time [e.g., the effect of unusually hot or cold days on disease rates (Checkley et al. 2000; Hajat et al. 2005)] or space (Hales et al. 2002; Rogers and Randolph 2000), or both (e.g., Kuhn et al. 2003; Singh et al. 2001). The extrapolation (mathematics, algorithm) extrapolation - A mathematical procedure which estimates values of a function for certain desired inputs given values for known inputs. If the desired input is outside the range of the known values this is called extrapolation, if it is inside then of short-term or geographic relationships between climate and disease to the process of long-term climate change is probably one of the most important sources of uncertainty in the process because impacts from more gradual processes may be either less severe (e.g., because of gradual adaptation) or more severe (e.g., because of long-term stress leading to irreversible irreversible (ir´ēvur´seb  l),adj incapable of being reversed or returned to the original state. changes in food-producing ecosystems) than expected. Also, some projected climatic conditions such as heat waves are of a duration or intensity not previously experienced by many (researched) human populations, which presents challenges to the estimation of future risk. If the assessment seeks to make direct comparisons with disease burdens attributable to other risk factors (as was the case in the global assessment), then it is usually necessary to use a summary measure of population health such as the DALY DALY Disability Adjusted Life-Years (Murray 1994) to combine effects of both mortality and morbidity from the various health impacts. This further restricts assessment to diseases with well-characterized and quantified disease burdens (e.g., cases of diarrhea), excluding many likely outcomes of climate change that are relevant to health (e.g., populations suffering increased water stress; Arnell 1999) but that do not yet have well-defined relationships to disease risk. Where different models exist for the same health outcome, final selection should be made on the basis of a) validation against historical data, b) plausibility of biological assumptions, and c) plausibility of extrapolation to other regions. The outcomes considered in the global and regional assessment are shown in Table 1. Defining Exposure Scenarios The global and regional analyses used climate models to define alternative plausible distributions of the risk factor in geographic regions over several decades. Many risk factors for health can potentially be altered over relatively short periods (i.e., up to several years). In these cases the focus is usually on calculating current attributable and avoidable burdens to indicate the benefits of addressing the risk factor in the near future. In contrast, decisions on greenhouse gas emissions influence global climate over many decades, and the impacts on human societies are therefore likely to be increasingly evident over similar periods. In this case the full implications of policy change are made clear only when exposure and associated effects are considered over the medium to long term. A logical baseline "exposure" for comparison would consist of a climate not yet affected by any human activities. This is commonly approximated by using the previous World Meteorological me·te·or·ol·o·gy n. The science that deals with the phenomena of the atmosphere, especially weather and weather conditions. [French météorologie, from Greek Organization-approved standard period from 1961 to 1990 as the baseline (World Meteorological Organization World Meteorological Organization (WMO), specialized agency of the United Nations; established in 1951 with headquarters at Geneva. It replaced the International Meteorological Organization, which was established in 1878. 1989). The IPCC has concluded that climate changes since around the middle of this period (i.e., 1975) are at least partly attributable to human action (IPCC 2001b). Therefore, this baseline tends to produce conservative estimates of attributable future risk. Exposure scenarios are based on global climate scenarios: internally consistent representations of future climatic conditions. These are generated by applying a range of levels of anthropogenic "forcings" (most important, greenhouse gas emissions) to computer models representing human and natural influences on the global climate. The output data consist of grid maps of variables, such as temperature, precipitation, and humidity, at a greater or lesser spatial resolution (Data West Research Agency definition: see GIS glossary.) A measure of the accuracy or detail of a graphic display, expressed as dots per inch, pixels per line, lines per millimeter, etc. It is a measure of how fine an image is, usually expressed in dots per inch (dpi). . The global assessment, for example, applied three "scenarios" of future greenhouse gas emission levels (Arnell et al. 2002): a) continuing on an unmitigated un·mit·i·gat·ed adj. 1. Not diminished or moderated in intensity or severity; unrelieved: unmitigated suffering. 2. trajectory Trajectory The curve described by a body moving through space, as of a meteor through the atmosphere, a planet around the Sun, a projectile fired from a gun, or a rocket in flight. approximately following the IPCC 1S92a scenario in which effective atmospheric carbon dioxide carbon dioxide, chemical compound, CO2, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. (C[O.sub.2]) concentration rises at 1% per year after 1990 (Arnell et al. 2002); b) stabilization of C[O.sub.2] concentrations at 750 ppm (Pages Per Minute) The measurement of printer speed. See gppm. PPM - Portable Pixmap (approximately double preindustrial pre·in·dus·tri·al adj. Of, relating to, or being a society or an economic system that is not or has not yet become industrialized. preindustrial Adjective of a time before the mechanization of industry concentrations; Carbon Dioxide Information Analysis Center The Carbon Dioxide Information Analysis Center (CDIAC) is an organization within the United States Department of Energy that has the primary responsibility for providing the US government and research community with global warming data and analysis as it pertains to energy issues. 2003) by 2210 (scenario s750); or c) stabilization of C[O.sub.2] concentrations at 550 ppm by 2170 (scenario s550), with projected changes in climate variables overlaid o·ver·laid v. Past tense and past participle of overlay1. on a grid of 1961-1990 climate condition at 0.5[degrees] spatial resolution. The Oceania regional assessment also used preexisting pre·ex·ist or pre-ex·ist v. pre·ex·ist·ed, pre·ex·ist·ing, pre·ex·ists v.tr. To exist before (something); precede: Dinosaurs preexisted humans. v.intr. climate scenarios generated by global climate models [this time with updated emissions scenarios from the Special Report on Emission Scenarios (SRES SRES Seniors Real Estate Specialist SRES Special Report on Emission Scenarios (Intergovernmental Panel on Climate Change) SRES Senate Resolution SRES Signed Response SRES Surgically Remediable Epilepsy Syndromes SRES System Resource )] (Nakicenovic et al. 2000; see also "Appendix"). The Oceania assessment used "down-scaled" global climate model patterns to generate country-level projections of future changes in temperature and rainfall. All global climate models show a general warming trend in the Australian region. To capture the wide variation in rainfall patterns across the continent estimated by different models, the regional assessment used two models, CSIROMk2 and ECHAM ECHAM European Centre Hamburg Model (global climate model) ECHAM ECMWF Hamburg (atmospheric general circulation model developed at the Max Planck Institute for Meteorology) 4, that represent the spectrum of different precipitation projections. The geographic resolution of the output was 0.25[degrees] (~ 25 [km.sup.2]), a scale fine enough to consider the variation in effects between cities and ecologic zones. This is an important factor in national assessments because budget allocations typically are organized around subnational administrative boundaries. Estimating Attributable and Avoidable Burdens of Disease The comparative risk assessment approach further requires the exposure measurement to be linked to a quantitative climate--health relationship (e.g., the change in disease rates per unit change in the climatic variable), for example, the increase in diarrhea incidence in a country (or subpopulation sub·pop·u·la·tion n. A part or subdivision of a population, especially one originating from some other population: microbial subpopulations. Noun 1. ) per year for each degree centigrade centigrade /cen·ti·grade/ (sen´ti-grad) having 100 gradations (steps or degrees); see under scale. cen·ti·grade adj. Celsius. increase in average ambient temperature Outside temperature at any given altitude, preferably expressed in degrees centigrade. . This enables the calculation of a relative risk (i.e., proportional change) for the health outcomes under each of the various future climate scenarios. The disease burden attributable to climate change is then estimated by multiplying this relative risk by the total burden of disease that would have been expected to occur in the absence of climate change. To make inferences about current and future disease burdens, it is also necessary to account for the current and future influences of nonclimatic factors such as socioeconomic development Socio-economic development is the process of social and economic development in a society. Socio-economic development is measured with indicators, such as GDP, life expectancy, literacy and levels of employment. . Nonclimatic effects can be partly addressed by calculating relative risk estimates separately for populations with clearly different baseline disease burdens and vulnerabilities, for example, the 14 WHO subregions in the global assessment or the specific cities and subpopulations considered in the Oceania assessment. Where possible, future relative risks should be applied to projections of disease burden that also account for changes in nonclimatic influences over time, such as expected decreases in diarrhea rates as water and sanitation sanitation: see plumbing; sanitary science. services, ideally, become more widespread in the future (e.g., Murray and Lopez 1997). Finally, changing socioeconomic conditions and physiologic and behavioral adaptations will also affect the vulnerability of populations to the effects of climate change (McMichael and Githeko 2001; Woodward et al. 1998), that is, the relative risk as well as the baseline rate. Both global and national assessments made such adjustments to relative risks of the various outcomes, for example, taking into account projected increases in the proportion of the population that is elderly and therefore particularly susceptible to extreme temperatures, in Oceania, and projected improvements in water and sanitation infrastructure in poor populations, decreasing the climate sensitivity of diarrheal disease, in the global assessment. The concepts of avoidable and attributable disease burdens under alternative climate change scenarios are illustrated graphically in Figure 1. Disease-Specific Methods Detailed descriptions of the methods for quantitative estimation of each of the selected health impacts are reported by McMichael et al. (2003b, 2004). The methodologic approach for each disease is outlined briefly below. Direct physiologic effects of heat and cold on cardiovascular mortality. Time-series studies were used to characterize the relationships between temperature variations and cardiovascular disease Cardiovascular disease Disease that affects the heart and blood vessels. Mentioned in: Lipoproteins Test cardiovascular disease mortality (global assessment), or all-cause mortality (Oceania), for high-risk populations within broad climate zones (global) and cities (Oceania). Estimates of the mean temperature under each climate scenario were given by "shifting" these distributions according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. the projected changes in future mean monthly temperature per spatial unit. The resulting relative risks therefore represent net annual deaths, the balance of increasing risks from high temperatures and decreasing risks from low temperatures. The global study included an adjustment for adaptation to increasing summer temperatures. In both cases the relative risk estimates are used to calculate only attributable deaths but not DALYs because the contribution of a relatively short-term advance of deaths in highly vulnerable individuals to the total duration of life lost is highly uncertain. Impacts on diarrheal disease. Dose--response relationships were derived from time-series studies of temperature variations and diarrhea incidence in developing countries (Checkley et al. 2000; Singh et al. 2001). Relative risks were calculated by multiplying the projected increase in temperature by the derived exposure--response relationship. In the global assessment the resulting relative risks were applied to WHO estimates of the overall current burden from diarrhea in developing regions, to estimate attributable diarrhea deaths and DALYs from climate change in 2000 and relative risk estimates for years to 2030 (adjusting for effects of economic development). In the Oceania assessment the relative risks from studies conducted in developing countries were applied to remote Aboriginal populations (which suffer rates of diarrheal disease similar to those of developing countries) to estimate increased diarrhea cases out to 2050. Impacts on malnutrition (global assessment only). Existing crop models were used to estimate the effect of projected changes in temperature, rainfall, and C[O.sub.2] on future yields of grain, cereals, and soybeans (Parry et al. 1999). These crop yield estimates are part of a world food trade model that accounts for the effects of market forces and government policies on prices, trade, and trends in agricultural and technologic conditions. The model estimates the proportion of the population in each region that has access to sufficient food to avoid undernourishment (Food and Agriculture Organisation 1987) within each climate scenario. Natural disasters caused by extreme weather and sea-level rise: coastal floods, inland floods, and mudslides. Relative risks of health impacts from rising sea levels were derived from published models that assess the contribution of projected sea-level rise, topography topography (təpŏg`rəfē), description or representation of the features and configuration of land surfaces. Topographic maps use symbols and coloring, with particular attention given to the shape and elevations of terrain. , and population distribution to estimate numbers of people likely to be exposed to flooding in the future (Hoozemans and Hulsburgen 1995; Nicholls et al. 1999). A new model was developed to estimate the effect of increasingly extreme rainfall events on the impact of inland floods and mudslides on human health. This model was based on an a priori assumption a priori assumption (ah pree ory) n. from Latin, an assumption that is true without further proof or need to prove it. It is assumed the sun will come up tomorrow. that inland flood/landslide frequency is proportional to the frequency with which monthly rainfall exceeds the highest value that might occur once every 10 years, under baseline (i.e., 1961-1990) climate conditions. The assessment in Australia was able to take advantage of a high-quality historical rainfall record, which provided a longer time series to estimate the baseline mean and variability distribution than could be collected at the global level. The future change in frequency of such extreme events was mapped against future population estimates to give the per capita [Latin, By the heads or polls.] A term used in the Descent and Distribution of the estate of one who dies without a will. It means to share and share alike according to the number of individuals. change in risk of experiencing such an extreme weather event. The relative risk for each geographic region was applied to the baseline rate of flood death and injury [derived from reports catalogued in the Emergency Events database (EM-DAT)] [Office of U.S. Foreign Disaster Assistance/Center for Research on the Epidemiology epidemiology, field of medicine concerned with the study of epidemics, outbreaks of disease that affect large numbers of people. Epidemiologists, using sophisticated statistical analyses, field investigations, and complex laboratory techniques, investigate the cause of Disasters (OFDA/CRED) 2001]. The models of flood risk from sea-level rise incorporate the adaptive effect of improved flood protection, assumed to correlate with increasing gross domestic project (GDP GDP (guanosine diphosphate): see guanine. ) over time. In the global analysis an equivalent adjustment was made for the effect that an increasing GDP was assumed to have on protecting against inland floods. Vectorborne diseases. Several approaches exist for examining the effect of climate change on vectorborne diseases, based either on observed relationships between climate conditions and vector development in laboratory or field studies (biological or empiric models) or on correlations between the geographic distribution of disease or vectors and climate variables (statistical models). In the global assessment a validated biological model of the influence of climate on the distribution of falciparum malaria fal·cip·a·rum malaria n. Malaria caused by Plasmodium falciparum and characterized by severe malarial paroxysms that recur about every 48 hours and often by acute cerebral, renal, or gastrointestinal manifestations. in Africa (Tanser et al. 2003) was used to estimate the relative change in population exposed to transmission throughout the world under the alternative climate scenarios. In the Oceania assessment, a locally derived biological model was used to estimate future changes in climatic regions suitable for maintenance of the malaria parasite parasite, plant or animal that at some stage of its existence obtains its nourishment from another living organism called the host. Parasites may or may not harm the host, but they never benefit it. and vectors within Australia (Bryan et al. 1996), and a global statistical model (Hales et al. 2002) was used to predict regions where dengue transmission could occur in Australia and the increase in regions suitable for dengue transmission in Pacific Island nations. The level of spatial detail in the final models enabled a preliminary estimate of the future costs that might be needed to retain a similar level of protection against these diseases in northern Australia The term northern Australia is generally considered to include the States and territories of Australia of Queensland and the Northern Territory. The part of Western Australia (WA) north of latitude 26° south — a definition widely used in law and State government policy . Estimates obtained using the methods described above are summarized in Table 2 for the Oceania assessment and Table 3 for one region within the global assessment. Discussion There is a general consensus in the scientific literature that human actions are contributing to climate change (IPCC 2001b; Oreskes 2004). Many diseases of public health significance are highly sensitive Adj. 1. highly sensitive - readily affected by various agents; "a highly sensitive explosive is easily exploded by a shock"; "a sensitive colloid is readily coagulated" to climate variability and are likely to be affected by the observed and predicted trend toward warmer and more variable climate conditions (e.g., McMichael and Githeko 2001; McMichael et al. 2003a; National Research Council 2001; Patz et al. 2005). Therefore, to inform mitigation decisions, policy makers are increasingly interested in the likely direction and size of these health effects and their interaction with other nonclimatic influences. To plan adaptation measures, these policy makers also require information on the most important disease threats that climate change may bring to specific populations. Ideally, policymakers considering a particular decision should have quantitative estimates of the full range of effects on human health, over the duration of effect of the decision (e.g., actions to reduce greenhouse gas emissions should be considered over the entire period for which greenhouse gases persist in Verb 1. persist in - do something repeatedly and showing no intention to stop; "We continued our research into the cause of the illness"; "The landlord persists in asking us to move" continue the atmosphere and influence climate). The comparative risk assessment provides a framework in which to work toward this aim. It is based on standard epidemiologic methods, that is, the definition of a theoretical minimum exposure to the risk factor, measurement of current and projected future exposure levels, consideration of the strength of evidence of an association between the risk factor and various health states, measurement of the relative risk of suffering the disease under alternative exposures, and adjustment for the effects of confounders or effect modifiers. The methods are therefore transparent and open to challenge and further refinement. For example, recent studies of the effect of climate change on measures of malaria risk at national (Hartman et al. 2002) or regional (Small et al. 2003) levels could potentially be used to reestimate or to provide sensitivity measures of this specific impact. The global assessment shows how summary measures of population health, such as DALYs, further allow the different potential health effects of climate change to be aggregated into a single metric, so that the total (measurable) effect can be compared with that of other health risk factors. The Oceania regional assessment demonstrates how different health impacts can be represented separately, illustrating variation in risk between geographic regions and subpopulations, which may be more transparent and intelligible for policy makers. Such assessments therefore have important advantages. First, by aiming at a comprehensive assessment, they give a better representation of the health consequences of climate change than studies of single disease outcomes in restricted populations. Second, they help to identify the relative public health burden of different climate-sensitive diseases. The global assessment, for example, showed that relatively small proportional increases in risk for climate-sensitive diseases such as diarrhea and malnutrition may cause very large increases in the total future disease burden. The attempt to carry out a full accounting of the health impacts of climate change rapidly clarifies significant knowledge gaps. Most of the climate--health models estimate the effects of changing mean values of a climate condition, usually temperature, whereas there is increasing evidence that less predictable changes in extreme values (e.g., Zhou et al. 2004), particularly of precipitation (e.g., Small et al. 2003), may be more important for many diseases. The outputs of many models relevant to such assessments [e.g., predictions of changes in the land area suitable for malaria transmission (Thomas et al. 2004b), population exposed to malaria (Rogers and Randolph 2000), or per capita duration of exposure (Tanser et al. 2003)] are linked only indirectly to disease rates and therefore represent only very approximate measures of the impacts on the burden of clinical disease. Finally, there is still only a limited understanding of the interactions between climate and many important diseases, such as the effects of both temperature and precipitation on diarrhea incidence across different populations. Many plausible or even probable mechanisms by which climate change may affect health have not been modeled quantitatively and have therefore not been included in these assessments. These include, but are not restricted to, changes in outdoor air pollution and aeroallergen aer·o·al·ler·gen n. Any of various airborne substances, such as pollen or spores, that can cause an allergic response. (pollen) levels (Beggs 2004), the effect of melting snows and glaciers This is a list of glaciers. Due to somewhat sparse information, some glaciers, especially those in the tropics, may no longer exist as listed. This is especially true for glaciers in Africa and New Guinea. on floods and landslides, changes in the distribution and transmission of other infectious diseases (particularly vectorborne diseases), the rate of recovery of the ozone hole ozone hole n. An area of the ozone layer, such as the large area over Antarctica or the smaller area over the North Pole, that periodically becomes depleted of ozone. [affecting exposure to ultraviolet An invisible band of radiation at the upper end of the visible light spectrum. With wavelengths from 10 to 400 nm, ultraviolet starts at the end of visible light and ends at the beginning of X-rays. The primary source of ultraviolet light is the sun. radiation (Shindell et al. 1998)], indirect effects on food production acting through plant pests and diseases, population displacement and destruction of health infrastructure in natural disasters, and the risk of conflict over natural resources. More generally, quantitative methods generally disregard low-probability but high-impact outcomes. There is increasing evidence from the paleo record and among climatologists (e.g., Hoerling and Kumar 2003) to support a hypothesis that the projected levels of greenhouse gas emissions could lead to a "regime shift" in future climate (driven by, e.g., large releases of methane from the ocean floor, burning and deforestation deforestation Process of clearing forests. Rates of deforestation are particularly high in the tropics, where the poor quality of the soil has led to the practice of routine clear-cutting to make new soil available for agricultural use. in the Amazonian rainforest, or a shutdown shut·down n. A cessation of operations or activity, as at a factory. shutdown Noun the closing of a factory, shop, or other business Verb shut down of the Gulf Stream). Future research in the health area may reasonably assess the health risks--and adaptive requirements--that an abrupt climate change Abrupt climate change refers to an event where large and widespread shift in climate occurs within a short period, perhaps a decade. The phrase was coined because of worldwide, centuries-long events seen in ice cores of past climate. might provoke. Challenges to Be Addressed The particular characteristics of climate change cause an additional range of methodologic issues that may be more difficult to resolve. Compared with more traditional risk factors, actions to mitigate or adapt to climate change affect human health through a much wider variety of mechanisms and over much longer periods. Models vary in the extent to which they account for changes in nonclimatic confounders such as the protective effect of adaptation, socioeconomic development, and technologic advances or, conversely con·verse 1 intr.v. con·versed, con·vers·ing, con·vers·es 1. To engage in a spoken exchange of thoughts, ideas, or feelings; talk. See Synonyms at speak. 2. , increased vulnerability through population aging and inequity in income or health care provision. Improved health surveillance data, more detailed epidemiologic analysis, and collaboration with nonhealth disciplines should help to narrow these uncertainties. The comparative risk assessment framework described here attempts to estimate only the consequences of changing levels of the risk factor rather than the total effect of any intervention to reduce the risk factor. Examples include ignoring the health co-benefits of reduced air pollution (Cifuentes et al. 2001a, 2001b) or, conversely, the possibility that interventions that reduce fossil fuel fossil fuel: see energy, sources of; fuel. fossil fuel Any of a class of materials of biologic origin occurring within the Earth's crust that can be used as a source of energy. Fossil fuels include coal, petroleum, and natural gas. consumption may suppress economic development and therefore health status. There are several levels of uncertainty inherent in the process of estimating climate change health risks. Because anthropogenic climate change is a long-term phenomenon that is superimposed su·per·im·pose tr.v. su·per·im·posed, su·per·im·pos·ing, su·per·im·pos·es 1. To lay or place (something) on or over something else. 2. onto natural climate Climate change burden of disease variability, there will always be some uncertainty around the attribution at·tri·bu·tion n. 1. The act of attributing, especially the act of establishing a particular person as the creator of a work of art. 2. of health impacts, particularly at the national or regional level. Two major types of uncertainty surround the estimation of the exposure measurement. First, we still have incomplete knowledge about how the climate system will respond to continuing change in the composition of gases in the atmosphere. Second, we cannot know in advance what social, technologic, demographic, and behavioral changes will occur in human societies over coming decades. For these reasons, results should not be reported in a way that suggests a higher probability to the central estimate of a series of scenarios. REFERENCES Arnell NW. 1999. Climate change and global water resources. 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Rogers DJ, Randolph SE. 2000. The global spread of malaria in a future, warmer world. Science 289:1763-1766. Shindell DT, Rind RIND See Reversible ischemic neurological disability. D, Lonergan P. 1998. Increased polar stratospheric strat·o·spher·ic adj. 1. Of, relating to, or characteristic of the stratosphere. 2. Extremely or unreasonably high: "money borrowed at today's stratospheric rates of interest" ozone losses and delayed eventual recovery owing to owing to prep. Because of; on account of: I couldn't attend, owing to illness. owing to prep → debido a, por causa de increasing greenhouse-gas concentrations. Nature 392:589-592. Singh RB, Hales S, de Wet N, Raj raj also Raj n. Dominion or rule, especially the British rule over India (1757-1947). [Hindi r R, Hearnden M, Weinstein P, et al. 2001. The influence of climate variation and change on diarrheal disease in the Pacific Islands. Environ Health Perspect 109:155-159. Small J, Goetz SJ, Hay SI. 2003. 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Thomas CD, Cameron A, Green RE, Bakkenes M, Beaumont LJ, Collingham YC, et al. 2004a. Extinction risk from climate change The extinction risk of climate change is the risk species have of becoming extinct due to the effects of global warming. In one study published in Nature in 2004, between 15 and 37% of known species will be extinct by 2050. . Nature 427:145-148. Thomas CJ, Davies G, Dunn CE. 2004b. Mixed picture for changes in stable malaria distribution with future climate in Africa. Trends Parasitol 20:216-220. United Nations. 1998. Kyoto Protocol Kyoto Protocol: see global warming. to the United Nations Framework Convention on Climate Change. Available: http://unfccc.int/resource/docs/convkp/kpeng.pdf [accessed 4 November 2006]. WHO. 2002. The World Health Report 2002. Geneva: World Health Organization. Woodward A, Hales S, Weinstein P. 1998. Climate change and human health in the Asia Pacific region: who will be most vulnerable? Climate Res 11:31-38. World Meterological Organization. 1989. Calculation of Monthly and Annual 30-Year Standard Normal. WCDP-No. 10. WMO-TD/ No. 34. Geneva: World Meteorological Organization. Zhou G, Minakawa N, Githeko AK, Yan G. 2004. Association between climate variability and malaria epidemics in the East African Adj. 1. East African - of or relating to or located in East Africa highlands. Proc Natl Acad Sci USA 101:2375-2380. Diarmid Campbell-Lendrum (1,2) and Rosalie Woodruff (3) (1) Department of Public Health and Environment, World Health Organization, Geneva, Switzerland; (2) London School of Hygiene and Tropical Medicine tropical medicine, study, diagnosis, treatment, and prevention of certain diseases prevalent in the tropics. The warmth and humidity of the tropics and the often unsanitary conditions under which so many people in those areas live contribute to the development and , London, United Kingdom; (3) National Centre for Epidemiology and Population Health, Australian National University Australian National University, located in Canberra and state-sponsored, founded 1946 as Australia's only completely research-oriented university. Originally limited to graduate studies, it expanded in 1960, merging with Canberra University College (est. 1929). , Canberra, Australia This article is part of the mini-monograph "Climate Change and Human Health: National Assessments of Impacts and Adaptation." Address correspondence to D. Campbell-Lendrum, Department of Public Health and Environment, WHO, Geneva CH-1211, Switzerland. Telephone: 41-22-781-4261. Fax: 41-22-791-1383. E-mail: Campbelllendrumd@who.int We are grateful to T. McMichael, S. Kovats, P. Wilkinson, S. Edwards, F. Tanser, D. Le Sueur, M. Schlesinger, N. Andronova, R. Nicholls, T. Wilson, S. Hales, M. Livermore, A. Pruss-Ustun, C. Corvalan, and B. Menne for contributions to the global assessment exercise, and to T. McMichael, N. Nicholls, K. Hennessy, S. Hales, T. Kjellstrom, and A. Woodward for Oceania. The views expressed in this article are those of the authors and do not necessarily reflect the position of the World Health Organization. The authors declare they have no competing financial interests. Received 17 June 2005; accepted 10 May 2006. Appendix. The IPCC SRES (Nakicenovic et al. 2000) has approved four different storylines that describe plausible relationships between greenhouse-gas-emission driving forces (economic growth, technology, etc.) and the future concentration of gases in atmosphere. These SRES scenarios provide the basis for quantification of future emissions. The A1 storyline Noun 1. storyline - the plot of a book or play or film plot line plot - the story that is told in a novel or play or movie etc.; "the characters were well drawn but the plot was banal" describes a world of very rapid economic growth, a global population that peaks around 2050 and declines thereafter, and the rapid introduction of new and more efficient technologies. Major underlying themes are convergence among regions, capacity building, and increased cultural and social interactions, with a substantial reduction in regional differences in per capita income Noun 1. per capita income - the total national income divided by the number of people in the nation income - the financial gain (earned or unearned) accruing over a given period of time . Within A1, there are three main subgroups, distinguished by their technologic emphases: fossil fuel intensive (A1FI), predominantly nonfossil energy sources (A1T), and balanced across all energy sources (A1B). The A2 storyline describes a world of regional self-reliance and preservation of local identities. Fertility patterns across regions converge slowly, which results in increasing global population. Per capita economic growth and technologic change are more fragmented and slower than other storylines. The B1 storyline describes a convergent world with the same population as in A1 but with rapid changes in economic structures toward a service and information economy, an emphasis on global solutions to economic, social, and environmental sustainability, and the introduction of clean and resource-efficient technologies. The B2 storyline has an emphasis on local solutions to economic, social, and environmental sustainability. Global population increases at a rate lower than A2, with intermediate economic development and less rapid and more diverse technologic change than in A1 and B1. In all the scenarios, the effect of specific climate initiatives to reduce emissions [e.g., the Kyoto Protocol to the United Nations Framework Convention on Climate Change (United Nations 1998) is not included. Conclusions The comparative risk assessment framework is a potentially useful approach to presenting policy-relevant quantitative estimates of the risks that climate change poses to health, at both the global and the national level. In presenting these findings to decision makers, it is important to make clear the limitations of these assessments: quantitative estimates are unavoidably uncertain, changes in nonclimatic factors will influence both the baseline rates of disease and their sensitivity to climate effects, and many of the mechanisms by which climate change may affect health are not currently modeled, likely leading to an underestimation rather than an overestimation o·ver·es·ti·mate tr.v. o·ver·es·ti·mat·ed, o·ver·es·ti·mat·ing, o·ver·es·ti·mates 1. To estimate too highly. 2. To esteem too greatly. of health threats. Given limited public health resources in many countries for risk assessments, it is important to reduce duplication in this work. Global assessments capture the scale of the future climate-change--related disease burden and highlight regions most at risk for particular health outcomes. This can provide a prompt for specialized regional assessments, which in many regions may give enough accurate information to use at the national level--particularly if countries within the region share similar climatic and economic conditions (e.g., estimated mosquito-borne disease burden in countries with equivalent risks and control programs). National assessments can provide the highest level of spatial resolution and hence the opportunity to quantify variation in risk between administrative divisions Noun 1. administrative division - a district defined for administrative purposes administrative district, territorial division borough - one of the administrative divisions of a large city canton - a small administrative division of a country . They can also be useful to focus political and community awareness on what is now increasingly recognized as a serious public health issue.
Table 1. Health outcomes quantified in the global and Oceania
comparative risk assessments.
Health Assessment
Type of outcome Outcome measure measure Global Regional
Direct impact of Cardiovascular Incidence [check] [check]
heat and cold disease deaths
Foodborne disease Diarrhea episodes Incidence [check] [check]
Waterborne disease Diarrhea episodes Incidence [check]
Vectorborne disease Malaria cases; Incidence [check] [check]
dengue cases
Natural Fatal Incidence [check] [check]
disasters (a) unintentional
injuries
Population Prevalence [check] [check]
displacement
Risk of Nonavailability Prevalence [check]
malnutrition of recommended
daily calorie
intake
[check], risk assessment conducted.
(a) All natural disaster outcomes are separately attributed to coastal
floods, or inland floods and landslides.
Table 2. Summary of main findings of the Oceania (for 2050) risk
assessment.
Exposure Health impact estimated Baseline health impact
Temperature Attributable mortality 1,100 deaths per year (across 10
extremes in > 65-year-old cities); temperate cities have
(cold and age group higher rates of heat deaths than
heat) tropical cities
Rainfall Annual incidence of Average annual death rate in
(inland) deaths and injuries Australia (1970-2001) was
0.41/million (state rates varied
from 0.05 to 3.1); the injury
rate was 1.9/million (range,
0.1-8.7)
Temperature Population living in Imported cases only
and a potential malaria
rainfall transmission zone
Vapor Population living in a Dengue not established, but local
pressure potential dengue outbreaks from infected
transmission zone travelers occur in far northeast
Australia in most years
Temperature Annual incidence of Aboriginal people living in remote
diarrheal disease arid communities have high
levels of diarrheal disease
Exposure Future health impact
Temperature Annual mortality range from 1,400 to 2,000, depending on
extremes scenario; increase in heat deaths will significantly
(cold and outweigh decrease in cold deaths
heat)
Rainfall Predicted annual death rate of 0.53-0.61/million (state
(inland) rates vary from 0.06 to 4.8); the injury rate was
1.99/million (range, 0.22-13.77)
Temperature Substantial southeastern expansion of the malaria zone
and
rainfall
Vapor Substantial southeastern and westward expansion of the
pressure dengue zone
Temperature A 10% (5-18%) increase in the annual number of diarrheal
hospital admissions among Aboriginal children
Table 3. Example of findings of the global (for 2030) risk assessment
for one WHO subregion (AfricaE: those sub-Saharan African countries with
high child and very high adult mortality).
Health Baseline regional
Exposure impact estimated situation in 2000
Rainfall (inland) Annual incidence Average 230 deaths/year reported
of mortality from from 1980 through 1999 (a)
inland flooding
Sea-level rise Annual incidence No deaths reported in
and coastal of mortality from 1980-1999 (a)
flooding coastal flooding
Temperature Annual incidence More than 420,000
and rainfall of falciparum deaths/year (b)
malaria
Temperature Annual incidence More than 900,000 deaths/year
and rainfall of malnutrition from malnutrition-related
conditions (b)
Temperature Annual incidence More than 430,000
of diarrhea deaths/year (b)
Estimated relative risks attribu table to
Exposure climate change under unmitigated emissions scenario
Rainfall (inland) 1.86 (1-2.44)
Sea-level rise 1.18 (1.09-1.35)
and coastal
flooding
Temperature 1.14 (1-1.28)
and rainfall
Temperature 1.02 (1-1.05)
and rainfall
Temperature 1.08 (0.99-1.06)
The effects of temperature extremes on cardiovascular disease deaths are
not presented here because of considerations of short-term mortality
displacement (see text).
(a) Baseline data derived from OFDA/CRED (2001). (b) Baseline data
derived from WHO (2002).
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